Keith's note: An interesting new website International Space Station Live!, hosted at JSC, is now online. It displays a variety of telemetry and data feeds from the ISS. Much of the data is realtime or close to real time and will offer people a chance to look over the shoulders of the people operating - and working aboard - the ISS.

Think about this: imagine having this gene chip technology aboard on long duration spaceflight as a diagnostic tool for crew health, for characterizing environmental microbial contamination, and to assay crop health within life support systems. Add a WiFi, WiMAX, or Bluetooth link and Tricorders could get quick updates.

National Institutes of Health (NIH) Director Francis Collins's controversial plan to launch a new center for translational biomedical research got a boost today in a White House announcement on science initiatives. NIH also rolled out an early project for the planned center, promising up to $140 million over 5 years to develop a chip for predicting drug toxicity

NASA is giving the public the power to journey through the solar system using a new interactive Web-based tool. The "Eyes on the Solar System" interface combines video game technology and NASA data to create an environment for users to ride along with agency spacecraft and explore the cosmos. Screen graphics and information such as planet locations and spacecraft maneuvers use actual space mission data. Point of view can be switched from faraway to close-up to right "on board" spacecraft. Location, motion and appearance are based on predicted and reconstructed mission data. Dozens of controls on a series of pop-up menus allow users to fully customize what they see, and video and audio tutorials explain how to use the tool's many options. Users may choose from 2-D or 3-D modes, with the latter simply requiring a pair of red-cyan glasses to see. "Eyes on the Solar System" and an introduction video are available at: http://solarsystem.nasa.gov/eyes

To support upcoming robotic and human exploration needs, the National Aeronautics and Space Administration (NASA) anticipates that it and others will need to implement a unified architecture for internetworked communication and navigation services that span the solar system. Unlike the terrestrial internet, a future Solar System Internet (SSI) must be capable of accommodating intermittent connectivity, long or variable delays, asymmetric data rates, and high data loss rates. The underlying capability that enables the SSI is commonly referred to as "Disruption-Tolerant Networking" (DTN). The SSI will employ both opportunistic and scheduled communications paths to optimize routing among nodes of the SSI, while maintaining low communications overhead and data processing load.